Li-Fi, which is light fidelity, is one of the future technologies in the wireless communication sector. It is bidirectional, with a very high speed and is a fully networked communication which is wireless technology similar to Wi-Fi. In the present era, Wi-Fi is the most trending domain. As internet users almost double every year, there is an enormous load on the radio spectrum that leads to congestion. To get better bandwidth, efficiency and speed, a new technology Li-Fi has evolved.. Li-Fi can be simply put to be Wi-Fi but instead of radio waves light is used as a medium. Here, data is transmitted using light whose intensity varies faster than the human eye can capture. Instead of using modems, Li-Fi uses LED bulbs with transceivers. Data transmission in Li-Fi is about 100 times faster than Wi-Fi. Here, in this paper we explore the need for Li-Fi. Li-Fi technology, proposed by the German Scientist โ Harald Haas, Harald Haas proposed the technology that transmits the data through illumination .Li-Fi is ideal for high speed wireless data transmission in confined areas. Li-Fi provides higher bandwidth, efficiency, availability and security than Wi-Fi and has already achieved high speed in the lab. We can implement this system for public internet access through street lamps to auto -piloted cars that communicate through their headlights. As the speed of light is higher hence the data transmission speed is so much faster that the existing system. In the future we can implement this technology for fast data access for the laptops, smart phones, and tablets that will be transmitted through the light in a room.
Images of Models
We transferred the image after burning the code in the transmitter and receiver which are Arduino nano. After burning the code in the transmitter, we used cool term software and take the required file type and the command is passed into the LED which will blink accordingly on the solar panel and pass the data into the receiver which processes the data and display the image onto the LCD.
In this model, we transferred messages from our mobile phones to LCD using light as a data transmitter. We used the frequency and duration of the flashlight to transmit the message through a solar panel. We made an application that take the message as an input and gives the flashlight as output which is reflected on the LDR sensor and the corresponding message is displayed on the LCD. We used Arduino Uno as the microcontroller board.
LiFiVerse AppFarbricated Model
LiFiVerse_Grp17_DP_Project.mp4
Contributers: Pranav Dharme,Aryaka Choudhary, Shalu, PV Jayanth, Atharva Vidhulkar, and Yashwant Singariya